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Case |
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Input flange connection |
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Input shaft design |
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Installation and operation characteristics |
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Size |
Reduction ratio | Rated output torque |
Acceleration and braking?torque |
Permissible torque at emergency stop |
Rated input speed | Cycle effective speed 5) | Max. allowable input speed10) | Tilting stiffness 1)6) | Torsional stiffness 1)7) |
Max. no-load starting torque 9) |
Max. back driving torque 9) |
| i | TR?[Nm] | Tmax?[Nm] | Tem?[Nm] | nR?[rpm] | nef[rpm] | nmax?[rpm] | Mt[Nm/arcmin] | kt[Nm/arcmin] | [Nm] | [Nm] | |
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TS 70 |
41 | 50 | 100 | 250 | 2000 |
2000 |
4000 | 40 | 8 | 0,30 | 11 |
| 75 | 2500 | 5000 | 0,14 | 13 | |||||||
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TS 80 |
37 | 78 | 156 | 390 | 2000 | 3000 | 4000 | 70 | 10 | 0,35 | 14 |
| 85 | 5000 | 0,12 | 16 | ||||||||
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TS 110 |
33 | 122 | 244 | 610 | 2000 | 2000 | 3500 | 155 | 24 | 0,35 | 24 |
| 67 | 2500 | 3900 | 0,35 | 28 | |||||||
| 119 | 4500 | 0,20 | 33 | ||||||||
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TS 140 |
33 | 268 | 670 | 1340 | 2000 | 2000 | 3000 | 380 | 62 | 0,60 | 40 |
| 69 | 2500 | 4500 | 0,40 | 50 | |||||||
| 115 | 0,35 | 65 | |||||||||
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TS 170 |
33 | 495 | 1237 | 2475 | 2000 | 1500 | 3000 | 1100 | 110 | 2,00 | 75 |
| 59 | 2000 | 3500 | 2,00 | 85 | |||||||
| 125 | 2500 | 3900 | 1,20 | 125 | |||||||
| 141 | 4000 | 0,40 | 125 | ||||||||
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TS 200 |
49 | 890 | 2225 | 4450 | 2000 | 1200 | 2500 | 1300 | 200 | 2,10 | 80 |
| 63 | 1500 | 3500 | 1,90 | 90 | |||||||
| 125 | 2000 | 4000 | 1,70 | 200 | |||||||
| 169 | 2200 | 4500 | 0,90 | 210 | |||||||
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TS 220 |
55 | 1250 | 3125 | 6250 | 2000 | 1200 | 2400 | 1900 | 310 | 1,80 | 75 |
| 125 | 1800 | 3500 | 1,40 | 220 |
RIGHT TO CHANGE WITHOUT PRIOR NOTICE RESERVED
1/ Mean statistical value. For further information see chapter?Torsional stiffness, Tilting stiffness.
2/ Load at output speed 15 rpm.
3/ Tilting moment Mc max value for Fa=0. If Fa ≠0, see chapter Tilting?moment.
4/ Axial force Fa max value for Mc=0. If Mc≠0, see chapter Tilting?moment.
5/ The effective speed can also be higher for lost motion?bigger than 1 arcmin and for low values of oil viscosity.?For lost motion lower than 0,6 arcmin please consult the?effective speed with the manufacturer.
6/ The parameter depends on the version of the high precision?reduction gear.
7/ The parameter depends on the version of the high precision?reduction gear, ratio and lost motion.
8/ The values of the parameters are informative. The exact value?depends on the specific version of the high precision reduction gear.
9/ Temperatures of the high precision reduction gear lower than 20°C?will cause higher no-load starting or back driving torque.
10/ Depends on the duty cycle; a higher input speed may still be?possible; please consult the manufacturer.
The ratios highlighted in bold are recommended by SPINEA as optimal versions in terms of price and delivery.
